Saikat Guha
Saikat Guha
Clark Distinguished Chair Professor of Electrical and Computer Engineering, University of Maryland
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Zitiert von
Zitiert von
Quantum illumination with Gaussian states
SH Tan, BI Erkmen, V Giovannetti, S Guha, S Lloyd, L Maccone, ...
Physical review letters 101 (25), 253601, 2008
Microwave quantum illumination
S Barzanjeh, S Guha, C Weedbrook, D Vitali, JH Shapiro, S Pirandola
Physical review letters 114 (8), 080503, 2015
Fundamental rate-loss tradeoff for optical quantum key distribution
M Takeoka, S Guha, MM Wilde
Nature communications 5 (1), 5235, 2014
Classical capacity of the lossy bosonic channel: The exact solution
V Giovannetti, S Guha, S Lloyd, L Maccone, JH Shapiro, HP Yuen
Physical review letters 92 (2), 027902, 2004
Covert communication in the presence of an uninformed jammer
TV Sobers, BA Bash, S Guha, D Towsley, D Goeckel
IEEE Transactions on Wireless Communications 16 (9), 6193-6206, 2017
Hiding information in noise: Fundamental limits of covert wireless communication
BA Bash, D Goeckel, D Towsley, S Guha
IEEE Communications Magazine 53 (12), 26-31, 2015
Gaussian-state quantum-illumination receivers for target detection
S Guha, BI Erkmen
Physical Review A 80 (5), 052310, 2009
Development of quantum interconnects (quics) for next-generation information technologies
D Awschalom, KK Berggren, H Bernien, S Bhave, LD Carr, P Davids, ...
Prx Quantum 2 (1), 017002, 2021
Routing entanglement in the quantum internet
M Pant, H Krovi, D Towsley, L Tassiulas, L Jiang, P Basu, D Englund, ...
npj Quantum Information 5 (1), 25, 2019
Blueprint for a scalable photonic fault-tolerant quantum computer
JE Bourassa, RN Alexander, M Vasmer, A Patil, I Tzitrin, T Matsuura, D Su, ...
Quantum 5, 392, 2021
Minimum output entropy of bosonic channels: a conjecture
V Giovannetti, S Guha, S Lloyd, L Maccone, JH Shapiro
Physical Review A 70 (3), 032315, 2004
Covert wireless communication with artificial noise generation
R Soltani, D Goeckel, D Towsley, BA Bash, S Guha
IEEE Transactions on Wireless Communications 17 (11), 7252-7267, 2018
Rate-distance tradeoff and resource costs for all-optical quantum repeaters
M Pant, H Krovi, D Englund, S Guha
Physical Review A 95 (1), 012304, 2017
Structured optical receivers to attain superadditive capacity and the Holevo limit
S Guha
Physical review letters 106 (24), 240502, 2011
Covert communications when the warden does not know the background noise power
D Goeckel, B Bash, S Guha, D Towsley
IEEE Communications Letters 20 (2), 236-239, 2015
Rate-loss analysis of an efficient quantum repeater architecture
S Guha, H Krovi, CA Fuchs, Z Dutton, JA Slater, C Simon, W Tittel
Physical Review A 92 (2), 022357, 2015
Ultimate channel capacity of free-space optical communications
J Shapiro, S Guha, B Erkmen
Journal of Optical Networking 4 (8), 501-516, 2005
Polar codes for classical-quantum channels
MM Wilde, S Guha
IEEE Transactions on Information Theory 59 (2), 1175-1187, 2012
Convolutional and tail-biting quantum error-correcting codes
GD Forney, M Grassl, S Guha
IEEE transactions on information theory 53 (3), 865-880, 2007
The squashed entanglement of a quantum channel
M Takeoka, S Guha, MM Wilde
IEEE Transactions on Information Theory 60 (8), 4987-4998, 2014
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